Unknown,Transcriptomics,Genomics,Proteomics

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Dicer and Hsp104 function in a negative feedback loop to confer epigenetic robustness [RNA_profiles]


ABSTRACT: Epigenetic mechanisms can be influenced by environmental cues and thus evoke phenotypic variation. This plasticity can be advantageous for adaption, but also detrimental if not under tight control. Although having attracted considerable interest, it remains largely unknown if and how environmental cues such as temperature trigger epigenetic alterations. Using fission yeast, we demonstrate that environmentally induced discontinuous phenotypic variation is buffered by a negative feedback loop that involves the RNase Dicer and the protein disaggregase Hsp104. In the absence of Hsp104, Dicer accumulates in cytoplasmic inclusions and heterochromatin becomes unstable at elevated temperatures, an epigenetic state that is inherited for many generations after the heat stress. Dicer instead averts the toxic aggregation of a prionogenic protein. Our results highlight the importance of feedback regulation in building epigenetic memory and uncover Hsp104 and Dicer as homeostatic controllers that buffer environmentally induced stochastic epigenetic variation and toxic aggregation of prionogenic proteins. wt_spb75 grown at 30°C or 37°C

ORGANISM(S): Schizosaccharomyces pombe

SUBMITTER: Tim Roloff 

PROVIDER: E-GEOD-60429 | biostudies-arrayexpress |

REPOSITORIES: biostudies-arrayexpress

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Publications

Dicer and Hsp104 function in a negative feedback loop to confer robustness to environmental stress.

Oberti Daniele D   Biasini Adriano A   Kirschmann Moritz Alexander MA   Genoud Christel C   Stunnenberg Rieka R   Shimada Yukiko Y   Bühler Marc M  

Cell reports 20141224 1


Epigenetic mechanisms can be influenced by environmental cues and thus evoke phenotypic variation. This plasticity can be advantageous for adaptation but also detrimental if not tightly controlled. Although having attracted considerable interest, it remains largely unknown if and how environmental cues such as temperature trigger epigenetic alterations. Using fission yeast, we demonstrate that environmentally induced discontinuous phenotypic variation is buffered by a negative feedback loop that  ...[more]

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